Dow Corning MS-2002 White mouldable plastic reflects 98% of LED light

Dow Corning has introduced a highly reflective moulding compound for LED lighting.
Called MS-2002, it is a silicone that “delivers mechanical, thermal and optical stability at temperatures exceeding 150°C. It targets reflectivity as high as 98%”, said the firm.
With this temperature capability, i...

dow-corning-white-led-reflector-compound

Dow Corning has introduced a highly reflective moulding compound for LED lighting.

Called MS-2002, it is a silicone that “delivers mechanical, thermal and optical stability at temperatures exceeding 150°C. It targets reflectivity as high as 98%”, said the firm.

With this temperature capability, it can be used in contact with LED die – no air gap is required.

“Unlike epoxies, polycarbonate, acrylic and other LED materials, it retains colour, reflectance and mechanical performance over the lifetime of an LED lamp or luminaire without yellowing or physical degradation,” claimed Dow.

The firm already makes transparent moulding compounds for lenses.

Mould undercuts are permitted, as is or co-moulding of white and transparent materials. It exhibits 84 Shore A hardness.

Dow Corning MS-2002 White mouldable plastic reflects 98% of LED light

Dow Corning to Launch Moldable Optical Silicone Technology for LED Optics

Moldable-Optical-Silicone[/caption]
At PennWell Corporation’s Strategies in Light Europe 2013, Dow Corning will launch an new moldable optical silicone technology, deliver a presentation called “How Silicone Enables the Next Generation of Secondary Optics for LED Lighting,”...

Moldable-Optical-Silicone[/caption]

At PennWell Corporation’s Strategies in Light Europe 2013, Dow Corning will launch an new moldable optical silicone technology, deliver a presentation called “How Silicone Enables the Next Generation of Secondary Optics for LED Lighting,” and exhibit its portfolio of LED silicone optics.

Strategies in Light Europe 2013 will be held at the M.O.C. Event Centre in Munich.

The new moldable optical material is Dow Corning’s latest addition to its family of optical-grade silicones for LED lamp and luminaire applications. According to the company, the material significantly increases LED light output, improves overall energy efficiency, and extends device life and reliability.

The Dow Corning presentation will be delivered by Hugo da Silva, global industry director, LED Lighting at Dow Corning. It will focus on the use of optical-grade silicones as next-generation solutions to help meet the LED industry’s increasing need for products that overcome the challenges and limitations of traditional optical materials. It will also discuss how advances in silicone chemistry and processing give LED designers and original-equipment manufacturers (OEMs) greater freedoms to explore new systems and applications and enable more advanced light and luminaire designs.

The presentation will be given on Thursday, Nov. 21 from 11:30 a.m. to 12:00 p.m. in Room K1 at the M.O.C. Event Centre, session number TTS4P3. Dow Corning’s moldable optical-grade material, along with the company’ portfolio of LED lamp and luminaire solutions, can be seen at Booth B25.

About Dow Corning

Dow Corning specializes in silicone and silicon-based technology[/caption]

Dow Corning is an American multinational corporation headquartered in Midland, Michigan, USA. Dow Corning specializes in silicone and silicon-based technology, offering more than 7,000 products and services. Dow Corning is an equally owned joint venture of Dow Chemical and Corning. Products developed over the years include silicone sealants, adhesives, silicone mold-making rubbers, lubricants, release agents for cookware, sound-absorbing silicone, leather treatment, skin care lotion, preceramic polymers for high temperature applications, liquid silicone drycleaning solvent, High purity silicon wafers for use in semi-conductors and solar panels, as well as silicone waxes.

Dow Corning to Launch Moldable Optical Silicone Technology for LED Optics

silicone materials in LEDs can enable a more cost-effective efficacy

Optical silicones enable LEDs to compete for lighting applications. Kaz Maruyama, global industry director for lighting solutions at Dow Corning, states that the choice of silicone materials in LEDs can enable a more cost-effective efficacy boost than chip innovation in some cases.

LED-silicone[/caption]

Optical silicones enable LEDs to compete for lighting applications. Kaz Maruyama, global industry director for lighting solutions at Dow Corning, states that the choice of silicone materials in LEDs can enable a more cost-effective efficacy boost than chip innovation in some cases.

As LED chips quickly approach their theoretical limits for efficient light output, incremental improvements to the LED die provide diminishing returns on investment. This presents a dual challenge to LED manufacturers, who are feeling the pressure to optimize the lumen-per-watt efficacy of their devices while simultaneously driving down costs. This challenge is particularly acute for manufacturers competing for the rapidly expanding opportunities in general solid-state lighting (SSL) applications — but optical silicones can help.

Lighting consumes nearly 20% of global electricity generation, according to the United Nations en.lighten initiative. This fact has not only prompted governments around the world to plan or implement stringent new energy-efficiency regulations, it has sparked growing competition from LED manufacturers for a share in the expanding general lighting market.

As designers look beyond the technological status quo to boost lumen output and streamline costs, many are showing interest in optical silicone technology. As a class of materials, silicones are driving greater reliability, performance, and cost efficiency in applications spanning the entire LED value chain. Easily molded, these versatile materials are finding application as optically clear encapsulants or highly reflective LED packaging elements. In either case, silicone technology offers expanded design latitudes for shaping light and improving LED reliability.

Silicones also deliver high thermal and photostability compared to organic materials, such as epoxies or plastics. This stability is an important consideration as LED designers increase the amount of drive current in their devices and decrease the overall size of lighting fixtures. Combined, these trends are pushing LED temperatures to 150°C and higher, which can cause conventional epoxies and plastics to turn yellow and physically degrade over time. In contrast, silicones have demonstrated reliable optical and physical performance at temperatures reaching 200°C and higher. This range helps ensure next-generation LEDs can meet and exceed the lumen maintenance requirements of challenging packaging applications.

Many LED manufacturers may already be familiar with these properties of silicones. Yet many are unaware that not all optical-grade silicones are created equal. While all silicones share the same basic silicon-oxygen building blocks, they actually fall into two distinct chemistries characterized either by phenyl or methyl end groups distributed along their molecular backbone.

The differences between phenyl and methyl chemistry pose significant real-world implications for LED manufacturers. Namely, phenyl-based silicones deliver a comparatively higher refractive index (RI) of 1.54 vs. the 1.41 exhibited by methyl-based technologies. Although small, this difference in RI can translate into about 7% more light output — independent of the LED chip, case, or input power.

In other words, phenyl-based optical silicones enable LED designers to boost LED output simply by changing encapsulant materials. Such a materials choice signals a more cost-effective alternative to achieving a comparable improvement in LED chip performance.

Traditionally, the view among many veteran LED designers and manufacturers was that phenyl silicones came with certain limitations when it came to thermal stability — but no more. Breakthroughs in phenyl-based silicone chemistry now enable optical silicone encapsulants to perform with exceptional reliability in the latest generation of chip-on-board LED architectures.

Further, phenyl-based silicone encapsulants provide comparatively higher mechanical strength, and stronger gas barrier properties. This quality is particularly important for protecting delicate LED components such as phosphors or silver electrodes against moisture deterioration and sulfur corrosion. Because LED electrodes double as reflective elements and phosphor is a key element of light conversion, enhanced gas barrier protection is absolutely critical to maintaining both the performance and reliability of LED output.

We expect a key factor in the worldwide growth of LED-based lighting to be driven largely based on the adoption of high-RI materials. Advances in phenyl silicone technology have come just in time to improve the efficiency, reliability, and competitive value of LEDs as manufacturers target new applications emerging in today’s general lighting market.

About Kaz Maruyama

Kaz Maruyama is global industry director for lighting solutions at Dow Corning.

silicone materials in LEDs can enable a more cost-effective efficacy